DE1604119A1 - Device for contactless continuous ventilation control - Google Patents

Description

Device for contactless continuous ventilation control The present Invention describes a device with which a continuously adjustable ventilation of Rooms, in particular living and work rooms as well as stables can.

The control can be done by hand based on individual requirements or automatically, for example by a programming timer or a There are sensors which measure room climate parameters such as temperature, humidity, number of ions, Aerosol content, amount of oxygen, etc., measures.

To explain the state of the art in this area is the Function of a device for temperature-controlled ventilation according to the attached publication described :.

The room temperature is scanned by temperature-dependent resistors, which are each in a branch of a measuring bridge. In the diagonal branches of this Bridges are each the input of a transistor switching amplifier that is connected to a can be specified, a relay switches from bridge to bridge, a different threshold value. These relays operate the following contactors, which turn on the fan motor put a transformer tap of the respective associated voltage and thus the Change the speed, i.e. the air flow.

The disadvantages of such devices consist substantially below = Once required more than two different speeds, must be wordoni provided Furthermore, for each additional stage an additional Fühlerwidsrstand and another combination of Maßbrücke, switching amplifiers, relays and Loietungeschütz, in particular at large switching capacities in the case of whole groups of fan motors, a correspondingly large and complex transformer is necessary, which carries the taps for the various motor voltages. Furthermore, faulty switching occurs over time, especially in rooms with contaminated Lufti, due to contamination of the contacts of the contactors, which impair operational safety. Finally, in many cases, a gradual change as a result of the sudden change in the air throughput caused by it is disruptive or inadequate.

The present invention relates to an apparatus having the aforesaid Avoids disadvantages and a contactless continuous control of the speed of the Fan motors made possible. The core of this device is a new semiconductor component, as e.g. from General Electric according to a further attachment to this application is manufactured under the name "TRIAC". This component is a semiconductor AC switch with 3 electrodes which are switched on by a control signal in each direction can be; it essentially consists of 2 in one-way circuit with AC output switched controllable silicon rectifiers.

The mode of operation of such a circuit will be explained using the circuit example shown in Fig. 1: An NTC resistor R in a bridge circuit, which is located in the bridge-designed input circuit of a control amplifier VZ, serves as the temperature sensor. A temperature deviation from the nominal value of the NTC resistor causes a bridge detuning and thus a controlled variable analogous to the change in resistance at the output of amplifier V1. The controlled variable amplified in this way appears as a current Ilil ', which flows through the heating winding of an externally heated, temperature-dependent resistor W and thereby changes its value. This arrangement causes, among other things, a delay in the use of the control, which is desirable in many cases, and enables control oscillations to be suppressed in a simple manner. The resistance W, together with the capacitor C, at the winding of a transformer Tr. From this known phase shifting circuit is applied to one of the controlled variable analog at the points P1 and P2 overall genüber the mains voltage phase-shifted alternating voltage to the subsequent switching amplifier V2. This amplifier acts as an impedance converter and controls the controllable alternating current switch T. are shown switchable via the switch S1 instead of the sensor R. The adjustable resistor R1 has the function of shifting the operating point that is the change in the setpoint temperature. The resistor R2 is used for manual control of the circuit described.

In addition to the example described, the control amplifier V1 does not necessarily require a sensor which is designed as a resistor. Rather, the control amplifier can - in the general case be controlled directly by a controlled variable present as a voltage or current, without the described functions of the device being changed as a result. Mode of operation The electronic house automation type ASL is used to automatically control the speed of fans and thus their delivery rate in 4 stages depending on the house temperature. The automatic system relieves the farmer of the constant monitoring of the house temperature and the dependent control of the fans by hand via the speed switch. In addition, a sharp drop in the stable temperature is prevented in the event of sudden cold spells.

Construction 'The automatic system for stall ventilation ASL consists of: the switch box type EM-3/66 the transformer type DSK 3521 the sensor type M-3/66 the thermostat RT 4 sp (temperature limiting thermostat) The switch box made of insulating material contains the necessary switching and control elements . The following are arranged on the tlehlCuse cover: the switch drives for the main selector switch and the temperature range selector holder 4 green indicator lights - to display the voltage levels (speed levels) in automatic mode -1 red indicator light - gives a fault message when the fuse has tripped -1 white indicator light - indicates, if the fans have been switched off by the safety thermostat RT 4 sp - 1 button - to switch on the fuse - On the upper side are the 5 screwed stuffing boxes for the introduction of the lines from the mains and to the transformer, measuring sensor, thermostat and fans.

The transformer DSK 3251, housed in a sheet steel housing, is a step transformer in economy circuit with 5 taps, es. however, only 4 taps 220 V-180 V-150 V-100 V are used. The RT 4 ap thermostat is intended as a safety element. He switches off with automatic and manual Hetrieb.die fans when an adjustable thermostat on the minimum temperature is below; the white indicator light then lights up. The circuit can be seen from the circuit diagram.

S chaltunx via the main switch with the positions 0 (Aue) - A (automatic) -4 - 3 - 2 - 1 (manual operation) can be accepted cie fans in operation overall. Use the temperature selector switch (positions 10-15-20-25-300 C) .

the desired temperature setting for the automatic mode is selected. . 1) Automatic operation When the main switch is switched to position "A" and when it is switched on again by the RT 4 sp thermostat, the fans start at the highest voltage level (220 V) in order to ensure that they start up properly. After 5 seconds the fans are switched to the level that results from the position of the temperature selector switch and the house temperature determined by the sensor.

The house automation tries to control the speed of the fans Maintain the target temperature preselected via the temperature selector switch in the house. When the desired temperature is reached in the house, the fans run the medium speed level. When the house temperature rises, the fans are turned on to the higher voltage levels, with falling temperatures to the lower ones.

The switching temperatures of the automatic at the individual target temperature levels can be seen from Table 1.

If the house temperature falls below a still permissible minimum value, the temperature limitation thermostat switches off the fans. The setting of the thermostat is carried out by hand to a minimum temperature, which is not fallen below and which is different depending on the species. Those mentioned in table 1 Switch-off temperatures are non-binding example values.

Example: Select temperature 20o C house temperature 18o C The fans run at speed level II. If the house temperature rises due to the relatively no air volume and exceeds the temperature of 20 C, the automatic system switches the fans to speed level III. Now the fans run faster and convey more air. However, if the house temperature should continue to rise due to the higher outside temperature, the fans would be switched to speed level IV when the temperature exceeded 230 C, ie they would now work at full speed.

Is this speed and thus the amount of air too high, or does the Outside temperature, so the house temperature is ab8inkena When falling below the Temperature levels 23-20--17 C the automatic switches the fans to Speed levels III II I, i.e. slower speed.

Should the house temperature drop further, the temperature limiting thermostat switches the fans switch off at 140 C.

The green indicator lights indicate which voltage level is being used the fans are running right now. 2) Manual operation in the event of failure With the automatic system, the fans can be controlled manually in 4 speed levels They are only switched off by the safety thermostat if the one set on this Temperature is fallen below.

Fuse If the fuse has tripped, this is indicated by the red indicator light. The fuse can be switched on again with the push button (fuse).

Connection The automatic system for stall ventilation is built for an operating voltage of 220 V, 50 Hz with a switching capacity of 15 A. The following fans can be connected: up to 33 pieces KEC 4o6 12 "KEC 404 50, @ BKN 314 E 3 "BKN 406 E 16 "BKN 404 E 1o "BKN 5o6 E 3 "BKN 5o4 E 5 "BKN 636 E Automatic for stable ventilation Type ASL Nominal connection voltage 220 V, .50 Hz alternating current Switching capacity 15 A. Control box M-3/66 Temperature range according to table Accuracy of the target temperatures + 0.5o C Place the switching points Upward regulation mex. 1o C above target temperature Down regulation mnx. 1 ° C below the target temperature Operating modes Off / Automatic / Manual - 4 levels Jump start automatically 5 sec. (adjustable 1 - 20 sec.) Power failure monitoring built-in via relay, Switching capacity 220 V, 5 A. (Terminals 17/1 $) Speed display via control lamps Fuse failure display via control lamp (fault) Ambient temperature - 200 C, + 300 C Housing version P 44 Weight approx. 9 kg Dimensions 500 x 305 x 195 Sensor M 3/66 Control time approx. 5 minutes Transformer DSK 3521 Power 3520 VA / 16 A - 220 V. 5 stages Housing protection class P 44 Thermostat type RT 4 Sp Switching capacity max. 15 A at 380 V, 50 Hz Temperature switch-off range - 5 0 C to + 300 C adjustable General Electric can look back auffortschrittlichste developments in semiconductor technology. For years, GE has manufactured controlled silicon rectifiers, rectifiers with zener effect, high-current silicon rectifiers, and a host of other improved power semiconductor designs. As the last link in this chain of new developments , General Electric is now introducing TRIAC . This new component is a semiconductor Wechseistromschalter with three electron trodes which may be tet geschal- conductive by a control signal in each direction. It is practically an "integrated" circuit, which corresponds in principle to the overall controlled silicon rectifier. The main advantage of the TRIAC is that it simplifies the switching of two-way alternating current : by reducing the number of live components, by eliminating the surge voltage suppression and by using smaller and simpler control circuits.

Compare the two circuits below. Both show a static two-way power switch, on the left with several controlled silicon rectifiers, on the right with a single TRIAC. If you want to use static network circuits , temperature meters, stepless brightness regulators or motor speed regulators; you should inform about TRIAC. It is supplied in small, robust housings for threaded or press-fit assembly in two nominal voltages: 200 V (type SC40B) and 400 V (type SC40D). . You will also find the new DIAC interesting, an AC switching diode for triggering the TRIAC or controlled silicon rectifiers. Zelheiten nourishing inputs Please ask:

Claims (5)

PATENT CLAIM 1) Sausage meat for contactless continuous ventilation control, characterized in that the fan motor is located in the circuit of a controllable silicon rectifier pair, the control electrode of which is influenced by the controlled variable via a phase shifter circuit. 2) device for contactless continuous ventilation control according to claim 1, characterized in that that the controllable silicon rectifier pair combined into one component is that only needs to be controlled via an electrode, for example in the form a TRIAC AC switch. 3) Device for contactless continuous licr-ien Ventilation control according to claim 1 or 2), characterized in that the phase-determining Resistance. is designed as an externally heated thermistor and the change in resistance takes place by the heating current influenced by the controlled variable, whereby in particular short-term changes in the controlled variable are not taken into account. 4) device for contactless continuous ventilation control according to one or more of the preceding Claims, characterized in that the input circuit of the control amplifier a switching element, preferably a variable resistor, to the operating point shift and thus change the setpoint of the input controlled variable to be able to. 5) Device for contactless continuous ventilation control according to one or more of the preceding claims, characterized in that the input control variable can preferably be changed via a potentiometer or a step switch by means of manual control.